The D-and F-Block Elements MCQs With Answers – Part 3 (Class 12 Chemistry)
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The d-and f-Block Elements MCQs with Answers – Part 3 (Class 12 Chemistry)

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211. Examine the classifications of chromium oxides.
RowOxideChromium oxidation stateAcid-base character
P\(\mathrm{CrO}\)\(+2\)Basic
Q\(\mathrm{Cr_2O_3}\)\(+3\)Amphoteric
R\(\mathrm{CrO_3}\)\(+6\)Acidic
The correctly classified rows are:
ⓐ. P, Q and R
ⓑ. P and Q only
ⓒ. Q and R only
ⓓ. P and R only
212. An oxide of a transition metal reacts with both a strong acid and a strong alkali. The oxide should be classified as:
ⓐ. exclusively basic
ⓑ. amphoteric
ⓒ. exclusively acidic
ⓓ. chemically inert
213. A graph plots acidic character of the oxides of one transition metal against the metal oxidation state. The most reasonable graph would:
ⓐ. fall continuously as the oxidation state increases
ⓑ. remain horizontal for all oxidation states
ⓒ. alternate regularly between maximum acidity and maximum basicity
ⓓ. rise overall, possibly through an amphoteric region
214. The expected order of increasing acidic character is:
ⓐ. \(\mathrm{MnO}\lt\mathrm{MnO_2}\lt\mathrm{Mn_2O_7}\)
ⓑ. \(\mathrm{Mn_2O_7}\lt\mathrm{MnO_2}\lt\mathrm{MnO}\)
ⓒ. \(\mathrm{MnO_2}\lt\mathrm{Mn_2O_7}\lt\mathrm{MnO}\)
ⓓ. \(\mathrm{MnO}\lt\mathrm{Mn_2O_7}\lt\mathrm{MnO_2}\)
215. A student states, “Because transition elements are metals, all their oxides must be basic.” The best correction is:
ⓐ. all transition-metal oxides are neutral because oxygen has oxidation state \(-2\)
ⓑ. only oxides containing a \(d^{10}\) metal centre can be acidic
ⓒ. transition-metal oxides are acidic only when dissolved in organic solvents
ⓓ. basic at low states, amphoteric at intermediate states, acidic at high states
216. A transition metal X forms \(\mathrm{XO}\), \(\mathrm{X_2O_3}\), and \(\mathrm{XO_3}\). Experiments show that \(\mathrm{XO}\) neutralises acids, \(\mathrm{X_2O_3}\) reacts with both acids and alkalis, and \(\mathrm{XO_3}\) forms an oxoacid with water. The observations are best explained by:
ⓐ. decreasing oxidation state producing increasing acidic character
ⓑ. greater oxidation state increases covalent and acidic character
ⓒ. identical bonding in all three oxides
ⓓ. a change in the number of protons in X between the oxides
217. Chromium(VI) oxide reacts with hydroxide ions according to: \[ \mathrm{CrO_3+2OH^-\rightarrow CrO_4^{2-}+H_2O}. \] The amount of \(\mathrm{OH^-}\) required to react completely with \(0.25\,mol\) of \(\mathrm{CrO_3}\) is:
ⓐ. \(0.125\,mol\)
ⓑ. \(0.25\,mol\)
ⓒ. \(0.50\,mol\)
ⓓ. \(1.00\,mol\)
218. The reaction \[ \mathrm{CrO+2H^+\rightarrow Cr^{2+}+H_2O} \] demonstrates that \(\mathrm{CrO}\) behaves as:
ⓐ. an oxidising agent only
ⓑ. an acidic oxide
ⓒ. a neutral oxide
ⓓ. a basic oxide
219. Oxygen and fluorine are especially effective at stabilising high oxidation states of transition metals because they:
ⓐ. have low electronegativities and donate electrons completely to the metal
ⓑ. are high polarizability spreads charge away from the metal centre
ⓒ. prevent the formation of strong metal-ligand bonds
ⓓ. are highly electronegative and form strong bonds to oxidised metals
220. Manganese in oxidation state \(+7\) is stable in \(\mathrm{MnO_4^-}\), but a simple aqueous \(\mathrm{Mn^{7+}}\) ion is not common. The best explanation is:
ⓐ. manganese has oxidation state \(+2\) in permanganate
ⓑ. oxygen reduces manganese to its elemental state
ⓒ. strong \(\mathrm{Mn-O}\) bonding and charge delocalisation stabilise \(+7\)
ⓓ. a monatomic \(7+\) ion would have lower charge density than permanganate
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